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Energy 300

Data Center Energy Standards

Partial map of the Internet based on the January 15, 2005 data found on opte.org. Each line is drawn between two nodes, representing two IP addresses. The length of the lines are indicative of the delay between those two nodes. This graph represents less than 30% of the Class C networks reachable by the data collection program in early 2005. Lines are color-coded according to their corresponding RFC 1918 allocation

Today we refresh our understanding of energy-related best practice literature according to the topical tranches we have deployed since 2023:

Energy 200: Codes and standards for building premise energy systems.  (Electrical, heating and cooling of the building envelope)

Energy 300: Codes and standards that support the energy systems required for information and communication technology

IEEE Energy Efficiency in Data Centers

ISO/IEC 30134 Series | CENELEC EN 50600 Series

ASHRAE 90.4 Energy Standard for Data Centers

ENERGY STAR Data Center Storage

European Code of Conduct for Data Centres Energy Efficiency

TIA-942 Telecommunications Infrastructure Standard for Data Centers

BICSI 002: Data Center Design and Implementation Best Practices, including energy management

Uptime Institute Annual Global Data Center Survey

Energy 400: Codes and standards for energy systems between campus buildings.  (District energy systems including interdependence with electrical and water supply)

A different “flavor of money” runs through each of these domains and this condition is reflected in best practice discovery and promulgation.  Energy 200 is less informed by tax-free (bonded) money than Energy 400 titles.

Some titles cover safety and sustainability in both interior and exterior energy domains so we simply list them below:

ASME A13.1 – 20XX, Scheme for the Identification of Piping Systems | Consultation closes 6/20/2023

ASME Boiler Pressure Vessel Code

ASME BPVC Codes & Standards Errata and Notices

ASHRAE International 90.1 — Energy Standard for Buildings Except Low-Rise Residential Buildings

Data Center Operations & Maintenance

2018 International Green Construction Code® Powered by Standard 189.1-2017

NFPA 90 Building Energy Code

NFPA 855 Standard for the Installation of Stationary Energy Storage Systems

IEEE Electrical energy technical literature

ASTM Energy & Utilities Overview

Underwriters Laboratories Energy and Utilities

There are other ad hoc and open-source consortia that occupy at least a niche in this domain.  All of the fifty United States and the Washington DC-based US Federal Government throw off public consultations routinely and, of course, a great deal of faculty interest lies in research funding.

Please join our daily colloquia using the login credentials at the upper right of our home page.

References: Energy 400

More

United States Department of Energy

International Energy Agency World Energy Outlook 2022

International Standardization Organization

ISO/TC 192 Gas Turbines

Energy and heat transfer engineering in general

Economics of Energy, Volume: 4.9 Article: 48 , James L. Sweeney, Stanford University

Global Warming: Scam, Fraud, or Hoax?, Douglas Allchin, The American Biology Teacher (2015) 77 (4): 309–313.

Helmholtz and the Conservation of Energy, By Kenneth L. Caneva, MIT Press

International District Energy Association Campus Energy 2023 Conference: February 29-March 2 (Grapevine Texas)

NRG Provides Strategic Update and Announces New Capital Allocation Framework at 2023 Investor Day

Evaluation of European District Heating Systems for Application to Army Installations in the United States

Gallery: Other Ways of Knowing Climate Change

Allston District Energy

Campus Bulk Electrical Distribution

Interdependent Water & Electricity Networks

Interoperability of Inverter-Based Resources

Gallery: Campus Steam Tunnels

Electrical Resource Adequacy

 

From our video archive:

Earth Energy Systems

Geothermal systems cool buildings by leveraging the stable temperatures found beneath the Earth’s surface. A geothermal heat pump system consists of a ground loop, heat exchanger, and distribution system.

In cooling mode, the system extracts heat from the building and transfers it to the ground. The ground loop, typically composed of pipes buried horizontally or vertically, circulates a fluid that absorbs heat from the building’s interior. The fluid, warmed by this process, is then pumped through the ground loop where the Earth’s cooler temperatures absorb the heat, effectively dissipating it into the ground.

The cooled fluid returns to the heat pump, which distributes the now-cooler air throughout the building via the distribution system, such as ductwork. This process is highly efficient because the ground maintains a relatively constant temperature year-round, allowing the geothermal system to operate with less energy compared to traditional air-source cooling methods.

At the moment, though the technology has been made practical since Prince Piero Ginori Conti’s discovery in 1904, and has since tracked well in local building codes and environmental regulations, the bibliography for earth energy systems is nascent and relatively thin.  One trade association is emerging from the gathering pace of applications and case studies: Closed-Loop/Geothermal Heat Pump Systems Design and Installation Standards

We maintain the IGSHPA catalog on the standing agenda of our Energy, Mechanical and Air Conditioning colloquia.  See our CALENDAR for the next online meeting; open to everyone.

Partial Bibliography:

Handbook of Best Practices for Geothermal Drilling

Best Practices for Designing Geothermal Systems

Geothermal Direct Use Engineering and Design Guidebook

International Standards

ISO 13612-1:2014 – Heating and cooling systems in buildings — Method for calculation of the system performance and system design for heat pump systems — Part 1: Design and dimensioning.

    • This standard covers the design and performance calculation of geothermal heat pump systems.

ISO 14823:2017 – Intelligent transport systems — Graphic data dictionary.

    • While not specific to geothermal, this standard includes data relevant to various systems, including geothermal energy systems.

ISO 52000-1:2017 – Energy performance of buildings — Overarching EPB assessment — Part 1: General framework and procedures.

    • This standard provides a general framework for assessing the energy performance of buildings, which includes geothermal systems.

IEC 61753-111-7:2014 – Fibre optic interconnecting devices and passive components – Performance standard – Part 111-7: Sealed closures for category S – Subterranean environments.

    • Relevant for the installation of geothermal systems that include fiber optic components in subterranean environments.

North American  Standards

CSA C448: Design and installation of earth energy systems.

ANSI/CSA C448 Series-16 – Design and Installation of Earth Energy Systems.

    • This standard covers the design and installation of geothermal heat pump systems in the United States, providing guidelines on installation practices, materials, and system performance.

ASHRAE Standard 90.1 – Energy Standard for Buildings Except Low-Rise Residential Buildings.

    • This standard sets the minimum energy efficiency requirements for the design and construction of buildings, including the installation of geothermal systems.

IGSHPA Standards – International Ground Source Heat Pump Association (IGSHPA) Standards.

    • The IGSHPA develops standards for the design and installation of geothermal heat pump systems, with a focus on closed-loop systems.

NFPA 54 – National Fuel Gas Code.

    • Although primarily focused on fuel gas systems, this standard may intersect with geothermal systems when they involve hybrid solutions that include gas heating.

EPA Standards for Geothermal Energy (40 CFR Part 144) – Underground Injection Control (UIC) Program.

    • This standard regulates the injection of fluids into underground wells, relevant for geothermal systems that involve deep wells for heat exchange.

UL 1995 – Heating and Cooling Equipment.

    • This standard applies to the safety of heating and cooling equipment, including geothermal heat pumps.

“Neptune’s Horses” 1919 | Walter Crane

International Energy Conservation Code

2024 International Energy Conservation Code (IECC) | April, May 2025

2024/2025/2026 ICC CODE DEVELOPMENT SCHEDULE

2024 GROUP A PROPOSED CHANGES TO THE I-CODES

Public Comment Period on the IECC

AIA Michigan Comment on ICC Code Development Process

National Electrical Manufacturers Association

Shouldn’t energy conservation measures be determined by market forces rather than building construction regulations? 

Energy codes in the United States are adopted and enforced at the state level, and the stringency of the energy codes can vary widely from state to state.  For example, as of September 2021, four states (Alabama, Mississippi, South Carolina, and West Virginia) had not adopted statewide energy codes at all, according to the Building Codes Assistance Project. Other states may have adopted energy codes but have not updated them to the latest version, which could be less stringent than more recent versions.

We do not spend too many resources challenging the zietgeist.  Engineers, by nature, seek to do more with less but it is worth reminding our colleagues that energy conservation practices vary widely around the globe and not every nation supports what amounts to an energy police state.

“The Conquest of Energy” / José Chávez Morado / Universidad Nacional Autónoma de México

The International Energy Conservation Code is a model building code developed by the International Code Council for incorporation by reference into state and local energy conservation legislation.  Free access to the current edition is linked below:

2021 International Energy Conservation Code

Sell Sheet: Leading the Way to Energy Efficiency

2024 International Energy Conservation Code Update: Appeals Deadline Extended

Apart from product prescriptive passages IECC is a largely a performance code which draws its inspiration from other energy-related catalogs developed by United States standards developers; notably ASHRAE International.  Several accessory titles supporting the current 2021 edition which address energy efficiency on several fronts including cost, energy usage, use of natural resources and the impact of energy usage on the environment are linked below:

Related Titles

Many of the ideas in play can be tracked in the transcripts linked below:

Complete Monograph: 2022 Group B Proposed Changes

Complete Monograph: 2022 Group B Public Comment Agenda

Note the pre-occupation with products such as insulation, fenestration, power outlets and lighting — reflecting the financial support of energy activists advocating on behalf of manufacturers who tend build the cost of their advocacy in the price of their product.

A commonly overlooked energy conservation measure is reducing standby power consumption, also known as “vampire power.” Many electronic devices, such as televisions, computers, and chargers, consume energy even when they are not actively being used but are still plugged in. This standby power can account for up to 10% of a building’s energy consumption.

While our focus tends to be on the commercial facility docket, we keep an eye on the residential docket because, a)  many colleges and universities own and operate square-footage on the periphery of their campuses that is classified as residential, b) many student rental houses are obviously classified as residential and we want property owners to be able to afford reasonable energy conservation measures for the houses they rent to students.*

From previous posts we explained we summarized our priorities for the Group B cycle and the IECC in particular:

  • Education facilities as storm shelters
  • Laboratory ventilation
  • Classroom lighting
  • Expansion of lighting controls
  • Expansion of receptacle controls
  • Expansion of electrical power system design requirements above beyond National Electrical Code minimums.

We encourage our colleagues in energy enterprises in education communities to participate directly in the ICC Code Development Process.*

2024/2025/2026 ICC CODE DEVELOPMENT SCHEDULE

The IECC is a standing item on our periodic Energy 200, Power, Mechanical and Hello World! colloquia.  See our CALENDAR for the next online meeting; open to everyone.

University of Michigan

Issue: [Various]

Category: Architectural, Facility Asset Management, Space Planning

Colleagues: Mike Anthony, Jim Harvey, Jack Janveja, Richard Robben, Larry Spielvogel

* More:

Consulting-Specifying Engineer (March 5, 2025): Why and how to adopt the IECC for energy-efficient designs

Incorporation by Reference

“A Square with Imaginary Buildings” | Hendrik van Steenwijck (1614)

A partial list of the standards developers who produce consensus documents that are referenced in education facility design guidelines and construction contracts is shown below:

IBR STANDARDS HOSTED BY ANSI

In other words, apart from open-source and consortia-developed standards, the safety and sustainability of the education facility industry is almost entirely dependent upon intellectual property that must be available free of charge to the public if local and state governments incorporate them by reference to meet their pubic safety assurance obligation.

While ANSI has managed a reconciliation on the issue generically called “incorporation by reference” there a few fine points that are noteworthy.  These are usually discussed during World Standards Week and summarized periodically at the link below:

ANSI GOVERNMENT OUTREACH ACTIVITIES

We refresh our understanding of this topic several times a year; typically during our Incorporation by Reference colloquium during which time we also examine state-level activity

Issue: [Various]

Category: Administration & Management, Public Policy, US Department of Commerce

Colleagues: Mike Anthony, Christine Fischer, Jack Janveja, Richard Robben

Campus Garden Brew

Standards Massachusetts

Harvard Net Position 2024: $16.582B | University of Michigan Net Position 2024: $22.335B

Make you own compost tea


Harvard Energy & Facilities

Harvard Life Sciences Facilities

Harvard Office of Facilities

Harvard University | Campus Property, Facilities, and Resources

Harvard University Buildings & Facilities

Harvard University Facilities Maintenance Department


* Endowment Comparison: Harvard v. University of Michigan

Nationalize the Ivy League

Iced Pistachio Latte

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Nettle Soup

https://www.facebook.com/BrightonCookerySchool/about

Soils and Foundations

CLICK IMAGE to access entire chapter

 

Readings:

“Building Community Resilience through Modern Model Building Codes.”

“Resilience Contributions of the International Building Code”

National Academy of Sciences: Natural Hazard Mitigation Saves: 2019 Report

Brickwork

Gallery: Great Lakes

The Great Lakes contain enough fresh water to cover the land area of the entire United States under 3 meters of water.

We collect 15 video presentations about Great Lake water safety and sustainability prepared by the 8 Great Lake border state colleges and universities and their national and international partners in Canada.

Tour Around Lake Superior

 

 

Water 100

When the wicked problems of peace and economic inequality cannot be solved, political leaders, and the battalions of servile administrative muckety-mucks who report to them, resort to fear-mongering about an imagined problem to be solved centuries hence assuming every other nation agrees on remedies of its anthropogenic origin.  We would not draw attention to it were it not that large tranches of the global academic community are in on the grift costing hundreds of billions in square-footage for research and teaching hopelessness to our children and hatred of climate change deniers.

Before the internet is scrubbed of information contrary to climate change mania, we recommend a few titles:

“Gulliver’s Travels” Jonathan Swift | Start at Chapter 5, PDF page 235

The Mad, Mad, Mad World of Climatism: Mankind and Climate Change Mania

Climate Change Craziness Exposed: Twenty-One Climate Change Denials of Environmentalists

Climate Psychosis

Gallery: Other Ways of Knowing Climate Change

 

Gallery: Animal Care

Animals 300

 

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